Acetyl-L-valine amide
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Acetyl-L-valine amide

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Category
L-Amino Acids
Catalog number
BAT-003910
CAS number
37933-88-3
Molecular Formula
C7H14N2O2
Molecular Weight
158.20
Acetyl-L-valine amide
IUPAC Name
(2S)-2-acetamido-3-methylbutanamide
Synonyms
Ac-L-Val-NH2; (s)-2-(acetylamino)-3-methylbutanamide
Appearance
White powder
Purity
≥ 99% (TLC)
Density
1.1414 (rough estimate)
Melting Point
234-242 °C
Boiling Point
283.28°C (rough estimate)
Storage
Store at 2-8 °C
InChI
InChI=1S/C7H14N2O2/c1-4(2)6(7(8)11)9-5(3)10/h4,6H,1-3H3,(H2,8,11)(H,9,10)/t6-/m0/s1
InChI Key
WEHJKQHCMGQEEF-LURJTMIESA-N
Canonical SMILES
CC(C)C(C(=O)N)NC(=O)C
1. Fluorometric recognition of both dihydrogen phosphate and iodide by a new flexible anthracene linked benzimidazolium-based receptor
Kumaresh Ghosh, Debasis Kar Beilstein J Org Chem. 2011 Feb 25;7:254-64. doi: 10.3762/bjoc.7.34.
A new flexible anthracene linked benzimidazolium-based receptor 1 has been designed, synthesized and its binding properties have been studied by NMR, UV-vis and fluorescence spectroscopic techniques. While the receptor 1 exhibits a greater change in emission in the presence of tetrabutylammonium dihydrogenphosphate in CH(3)CN over the other anions studied, iodide is selectively preferred in CHCl(3) containing 0.1% CH(3)CN. Upon complexation of dihydrogen phosphate and iodide, the emission of 1 gradually decreased without showing any other characteristic change in the spectra. Hydrogen bonding and charge-charge interactions interplay simultaneously in a cooperative manner for selectivity in the binding process.
2. Amide-Triazolium-Appended Anthracenes for Turn-On Fluorescence Sensing of Anions in Noncompetitive and Competitive Solvents
Zhi-Cheng Wang, Zichen Wang, Qian-Yong Cao, Sen Lin, Zhong-Wei Wang Chempluschem. 2016 Apr;81(4):406-413. doi: 10.1002/cplu.201500527. Epub 2016 Jan 8.
A new anthracene-based receptor bearing two arms of amide-triazolium anion-binding sites, and its counterpart compound with one amide-triazolium arm, have been synthesized and characterized. Their ability to bind anions in different solvents (CH3 CN, CHCl3 and DMSO) has been investigated in detail by using fluorescence techniques. Both compounds exhibited significant fluorescence turn-on sensing of F- and H2 PO4 - ions in noncompetitive and competitive environments with different binding modes. In CH3 CN and CHCl3 , the receptor with two triazoliums binds H2 PO4 - in 1:1 and 1:2 host-guest complexes, showing anthracene-based excimer emission in the 1:1 complex, and strong monomer emission in the 1:2 complex. In DMSO, only the 1:1 stoichiometric complex was detected. In contrast, it binds with F- and AcO- with 1:2 stoichiometry both in noncompetitive and competitive solvents. The anion-binding mechanism of both compounds was also evaluated by 1 H NMR spectrometric titration and density functional theory calculation.
3. [New Bipyridinium Salt: Synthesis and Application as a Fluorescence Enhancement Probe of Nitrate Ion]
Shun-ying Zou, Wen-hao Sun, Wei-tao Gong Guang Pu Xue Yu Guang Pu Fen Xi. 2015 Jun;35(6):1597-600.
Anions are ubiquitously distributed not only in biological systems but also in environment. Accordingly, anion recognition and sensing have attracted increasing attention due to the important roles anion plays in biological, chemical and environmental fields. Among various anionic species, NO3- is a very important inorganic anions which has a great harm to the environment and human health. At present, methods for the determination of NO3- mainly contained electrochemical method, ion chromatography and ion selective electrode method. Although all methods have their own advantages, but also has the obvious deficiency. Such as, the reproducibility of electrochemical method is not good, and ion chromatography and ion selective electrode method usually require expensive apparatus and lengthy analytical time. As a contrast, fluorescence spectroscopy become a hot research topic in anion recognition and detection because of its high sensitivity and easy operation and other advantages in recent years. New bipyridinium salt L was designed and synthesized using pyrylium as a starting material. The molecular structure was determined by 1H NMR, 13C NMR, and high resolution mass spectrometry. The molecular recognition properties of L have been investigated through fluorescence titration experiments. The results indicate that L has sensitive and selective fluorescent response to NO3- among other different anions. Significant enhancements in the fluorescence intensity of L were observed when various concentrations of NO3- were added, while other competing anions have a quenching effect towards the initial fluorescence of solution. The fluorescence titration spectra shows that the bonding stoichiometry between receptor L and NO3- is 1 : 1 as a supramolecular complexes (1gK = 5 ± 0.02). The chemosensing properties of L were evaluated through quantum chemical calculations and the variable temperature 1H NMR titration. These results suggested that L has strong binding affinity towards NO3- with high selectivity, which may be ascribed to the specific hydrogen bonding between the L and active H atom of the bipyrydinium salts. The interaction between L and NO3- made the complex more planar compared with L giving rise to enhanced fluorescence and specific selectivity towards NO3-.
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